蓝莓视频

As a husband and a father, Eishiro Higo understands and admires the emotional impulse to put others first in life-and-death emergencies involving groups of people.

But as a researcher who has objectively examined the likely outcomes in such situations using computer modeling, he doesn鈥檛 recommend it.

A study led by Higo, a听civil engineering听PhD candidate听at the University of 蓝莓视频, found that overall survival rates were substantially higher when strong people in a 30-member group first reached safety themselves before trying to help weaker people in a simulated flooding crisis.

鈥淲e have to identify what is brave and what is reckless,鈥� he says. 鈥淗elping people from a safe location is still good behaviour and the result is actually much better.鈥�

The study involved a two-dimensional computer model of an actual three-level underground space in听听that consists of a subway station, a parking garage and a shopping mall.

Inspired in large part by a devastating听听in Higo鈥檚 native Japan, the model simulated severe flooding from a nearby river.

To survive, a mix of adults and senior citizens on the lower subway platform level had to reach safety on the surface via staircases.

Computer modeling explored three strategies

Higo and his colleagues repeatedly ran the model using three different evacuation strategies: one in which people only worried about themselves; one in which people immediately worked together as a group; and one in which those capable of reaching a safe place did so first before trying to trying to save others using a rope.

In most life-and-death scenarios when variables such as the ratio of adults to seniors were adjusted, the rope strategy resulted in the highest overall survival rate.

In one typical scenario that assumed evacuation efforts beginning at a particular point in time, for instance, 12 of 30 people survived using the rope strategy, versus just five survivors using either of the other two strategies.

In effect, the results showed that when strong members try to help weak members before first securing themselves, they are dragged down and the group as a whole suffers.

鈥淔oolhardiness is not a good strategy for rescuing,鈥� says Higo, who did related research for his master鈥檚 degree at听before coming to 蓝莓视频 in 2013.

Crucial to the success of the rope strategy in the simulation was the availability of simple tools for use by rescuers.

Design features including handrails and raised areas on stairs for evacuees to brace themselves or rest also markedly increased the chances of survival.

Higo hopes his findings spark discussion and the inclusion of such relatively inexpensive disaster preparedness design features in public spaces.

鈥淚n very critical situations, we have to be kind of selfish, but we can still help others if we have proper equipment and proper strategies,鈥� he says.